BrainstemDbh+Neurons Control Chronic Allergen-Induced Airway Hyperreactivity

Author:

Su YujuanORCID,Xu Jinhao,Zhu Ziai,Yu Haoze,Nudell Victoria,Dash Barsha,Moya Esteban A.,Ye Li,Nimmerjahn AxelORCID,Sun Xin

Abstract

AbstractChronic exposure of the lung to irritants such as allergen is a primary cause of asthma characterized by exaggerated airway constriction, also called hyperreactivity, which can be life-threatening. Aside from immune cells, vagal sensory neurons are important for airway hyperreactivity1–4. However, the identity and signature of the downstream nodes of this adaptive circuit remains poorly understood. Here we show that a single population ofDbh+neurons in the nucleus of the solitary tract (nTS) of the brainstem, and downstream neurons in the nucleus ambiguous (NA), are both necessary and sufficient for chronic allergen-induced airway hyperreactivity. We found that repeated exposures of mice to inhaled allergen activates nTS neurons in a mast cell-, interleukin 4 (IL-4)- and vagal nerve-dependent manner. Single-nucleus RNA-seq of the nTS at baseline and following allergen challenges reveals that aDbh+population is preferentially activated. Ablation or chemogenetic inactivation ofDbh+nTS neurons blunted, while chemogenetic activation promoted hyperreactivity. Viral tracing indicates thatDbh+nTS neurons, capable of producing norepinephrine, project to the NA, and NA neurons are necessary and sufficient to relay allergen signals to postganglionic neurons that then directly drive airway constriction. Focusing on transmitters, delivery of norepinephrine antagonists to the NA blunted allergen-induced hyperreactivity. Together, these findings provide molecular, anatomical and functional definitions of key nodes of a canonical allergen response circuit. The knowledge opens the possibility of targeted neural modulation as an approach to control refractory allergen-induced airway constriction.

Publisher

Cold Spring Harbor Laboratory

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